KR200144013Y1 - Power control apparatus using photo sensor in a notebook computer - Google Patents

Abstract

Provided is a notebook PC power control device for automatically powering off the notebook PC when it is mounted in a docking station with the power on. The power control device of the notebook PC has a light shielding door located between the light sensor and the photo transistor to block light from the light emitting diode. When the notebook PC is attached to the docking station, the light shielding door is opened to The light can be received by the photo transistor, which automatically turns off the notebook PC. Therefore, it is possible to prevent the notebook PC from being damaged by being mounted in the docking station while the notebook PC is turned on.

Description

Notebook PC Power Control

1 is a block diagram of a power control device of a notebook PC according to the present invention.

2 is a view showing a power control device coupled to a notebook PC and a docking station according to the present invention.

3 is a detailed circuit diagram of part K of FIG.

4 is a table showing the operating state of the power control device of the notebook PC according to the present invention.

* Explanation of symbols for main parts of the drawings

10: detector 20: DDC converter

PTR1: Phototransistor LEDI: Light Emitting Diode

AND1: AND gate S1: light shielding door

The present invention relates to a notebook PC, and more particularly to a power supply control device of the notebook PC when the notebook PC is mounted to the docking station (Docking Station).

In the conventional case, when the user of the notebook PC does not turn off the power after using it, and then attaches it to the docking station, the docking station should be mounted as it is without knowing whether the power is on or off when the notebook PC LCD panel is covered. If a short occurs at the interface between the docking station and the interfacing connector of the notebook PC, there is a problem that can cause fatal damage to the notebook PC.

In addition, when various I / O boards are already inserted into the slots of the docking station, there is a problem that may cause electrical damage to the I / O boards.

Accordingly, an object of the present invention is to provide an optical sensor that automatically turns off the power of the notebook PC by using an optical sensor in a docking station while the notebook PC is turned on. The present invention provides a power supply control device for a used notebook PC.

A feature of the power control device of the notebook PC according to the present invention for achieving the above object is that the light shielding door is located between the light sensor and the photo transistor to block the light of the light emitting diode to the docking station. When mounted, the light shielding door is opened so that the port transistor can receive the light of the light emitting diode so that the notebook PC can be turned off automatically.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the present invention will be described in detail.

1 is a configuration diagram of a power control device of a notebook PC according to the present invention, Figure 2 is a view showing a power control device coupled to the notebook PC and the docking station according to the present invention, Figure 3 is a part K of Figure 2 Detailed circuit diagram.

Referring to FIG. 1, the power control apparatus of the notebook PC according to the present invention detects that the notebook PC is mounted in a docking station and outputs a detection signal, and the detection of the detection unit 10. AND gate AND1 outputs a driving signal by multiplying a signal with a system power supply of the notebook PC, and a direct digital control (DDC) which is driven by a drive signal of the AND gate AND1 to control a power supply of the notebook PC. It consists of 20.

Here, the sensing unit 10 is attached to the docking station and connected to the light emitting diode LED1 connected to the anode side through the resistor R1 to the power supply V-ON, and to the notebook PC facing the light emitting diode LED1. The emitter side is grounded and the collector side is located between the phototransistor PTR1 and the phototransistor PTR1 and the light emitting diode LED1 connected to the power supply V-ON via the provision R2. And a light shielding door S1 for opening and closing the light from the LED1) to the phototransistor PTR1 (see FIG. 2).

Here, the power supply (V-ON) is a power supply that is always + 5V by the battery power supply or AC / DC adapter is a separate power supply regardless of the main power switch on / off of the notebook PC system.

Referring to Figures 2 and 3 the operation of the power control device of the notebook PC configured as described above are as follows.

When the notebook PC is mounted in the docking station, the light shielding door S1, which is closed (1 position in Fig. 3), is opened immediately after the notebook PC passes the X point of the docking station (projection P of the docking station). (Position ② in Fig. 3).

At the Y point after the light shielding door S1 is opened, the phototransistor PTR1 of the notebook PC receives the light transmitted from the light emitting diode LED1 of the docking station and is turned on.

Therefore, when the notebook PC is mounted in the docking station when the notebook PC is powered on, the photo transistor PTR1 is turned on so that the input (b) of the AND gate AND1 is low, and the input (a) is high. The output c of the AND gate AND1 goes low.

Since the output c of the AND gate AND1 is low, the DDC 20 is turned off to turn off the notebook PC (see FIG. 4).

After that, when the notebook PC reaches the Z point, the interfacing connectors CN1 and CN2 are connected to complete the process of fixing the notebook PC to the docking station.

As described above, the power control device of the notebook PC according to the present invention, when the notebook PC user does not turn off the power of the PC and accidentally attaches it to the docking station, the PC may be fatally damaged or the slot of the docking station may be damaged. Even if the user does not know that the various I / O boards, etc. already inserted into the product are damaged, the PC can be turned off automatically to prevent fatal damage in advance.

Claims (3)

In the notebook PC, the sensing means for detecting that the notebook PC is mounted in the docking station, a drive unit for outputting a drive signal by multiplying the output of the system power of the notebook PC and the output of the detection means, and is driven by receiving the output of the drive unit It comprises a control means for controlling the power of the notebook PC. A notebook PC power control device. According to claim 1, wherein the sensing means is composed of a light sensor attached to the receiver and the transmitter is attached to one side of the notebook PC and one side of the docking station, and the light shielding member for opening and closing the transmission of light to the receiver. Power supply device for a notebook PC, characterized in that. The power control device of claim 1, wherein the control means comprises a DDC to receive the output of the driver to turn on / off the power of the notebook PC.